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Title: Hitting the target: fragment screening with acoustic in situ co-crystallization of proteins plus fragment libraries on pin-mounted data-collection micromeshes

Journal Article · · Acta Crystallographica. Section D: Biological Crystallography
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  1. Brookhaven National Laboratory, Upton, NY 11973-5000 (United States)
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A method is presented for screening fragment libraries using acoustic droplet ejection to co-crystallize proteins and chemicals directly on micromeshes with as little as 2.5 nl of each component. This method was used to identify previously unreported fragments that bind to lysozyme, thermolysin, and trypsin. Acoustic droplet ejection (ADE) is a powerful technology that supports crystallographic applications such as growing, improving and manipulating protein crystals. A fragment-screening strategy is described that uses ADE to co-crystallize proteins with fragment libraries directly on MiTeGen MicroMeshes. Co-crystallization trials can be prepared rapidly and economically. The high speed of specimen preparation and the low consumption of fragment and protein allow the use of individual rather than pooled fragments. The Echo 550 liquid-handling instrument (Labcyte Inc., Sunnyvale, California, USA) generates droplets with accurate trajectories, which allows multiple co-crystallization experiments to be discretely positioned on a single data-collection micromesh. This accuracy also allows all components to be transferred through small apertures. Consequently, the crystallization tray is in equilibrium with the reservoir before, during and after the transfer of protein, precipitant and fragment to the micromesh on which crystallization will occur. This strict control of the specimen environment means that the crystallography experiments remain identical as the working volumes are decreased from the few microlitres level to the few nanolitres level. Using this system, lysozyme, thermolysin, trypsin and stachydrine demethylase crystals were co-crystallized with a small 33-compound mini-library to search for fragment hits. This technology pushes towards a much faster, more automated and more flexible strategy for structure-based drug discovery using as little as 2.5 nl of each major component.

OSTI ID:
22347794
Journal Information:
Acta Crystallographica. Section D: Biological Crystallography, Vol. 70, Issue Pt 5; Other Information: PMCID: PMC4014116; PMID: 24816088; PUBLISHER-ID: nj5173; OAI: oai:pubmedcentral.nih.gov:4014116; Copyright (c) Yin et al. 2014; This is an open-access article distributed under the terms of the Creative Commons Attribution Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.; Country of input: International Atomic Energy Agency (IAEA); ISSN 0907-4449
Country of Publication:
Denmark
Language:
English

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Ultrasonic acoustic levitation for fast frame rate X-ray protein crystallography at room temperature journal May 2016
Co-crystallization and small molecule crystal form diversity: from pharmaceutical to materials applications journal January 2016
What’s happened over the last five years with high-throughput protein crystallization screening? journal April 2018
Miniaturization and optimization of 384-well compatible metagenomic sequencing library preparation journal October 2018
Acoustic transfer of protein crystals from agarose pedestals to micromeshes for high-throughput screening journal January 2015
In meso in situ serial X-ray crystallography of soluble and membrane proteins journal May 2015
On-chip crystallization for serial crystallography experiments and on-chip ligand-binding studies journal June 2019
Automated harvesting and processing of protein crystals through laser photoablation journal March 2016
Gentle, fast and effective crystal soaking by acoustic dispensing journal March 2017
Using sound pulses to solve the crystal-harvesting bottleneck journal October 2018
Strategies for sample delivery for femtosecond crystallography journal February 2019
Rapid approach to complex boronic acids journal July 2019
Miniaturization and optimization of 384-well compatible RNA sequencing library preparation journal January 2019
Strategies for sample delivery for femtosecond crystallography text January 2019
On-chip crystallization for serial crystallography experiments and on-chip ligand-binding studies text January 2019
On-chip crystallization for serial crystallography experiments and on-chip ligand-binding studies text January 2019
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